Achieving the scaling limit for nonequilibrium green functions simulations N Schlünzen, JP Joost, M Bonitz
Physical review letters 124 (7), 076601, 2020
93 2020 Nonequilibrium dynamics in the one-dimensional Fermi-Hubbard model: Comparison of the nonequilibrium Green-functions approach and the density matrix renormalization group method N Schlünzen, JP Joost, F Heidrich-Meisner, M Bonitz
Physical Review B 95 (16), 165139, 2017
86 2017 G1-G2 scheme: Dramatic acceleration of nonequilibrium Green functions simulations within the Hartree-Fock generalized Kadanoff-Baym ansatz JP Joost, N Schlünzen, M Bonitz
Physical Review B 101 (24), 245101, 2020
59 2020 Screened Coulomb potential in a flowing magnetized plasma JP Joost, P Ludwig, H Kählert, C Arran, M Bonitz
Plasma Physics and Controlled Fusion 57 (2), 025004, 2014
50 2014 Correlated topological states in graphene nanoribbon heterostructures JP Joost, AP Jauho, M Bonitz
Nano Letters 19 (12), 9045-9050, 2019
47 2019 Non-Maxwellian and magnetic field effects in complex plasma wakes P Ludwig, H Jung, H Kählert, JP Joost, F Greiner, Z Moldabekov, ...
The European Physical Journal D 72, 1-10, 2018
37 2018 Dynamical screening and wake effects in classical, quantum, and ultrarelativistic plasmas ZA Moldabekov, P Ludwig, JP Joost, M Bonitz, TS Ramazanov
Contributions to Plasma Physics 55 (2‐3), 186-191, 2015
37 2015 Doublon formation by ions impacting a strongly correlated finite lattice system K Balzer, MR Rasmussen, N Schlünzen, JP Joost, M Bonitz
Physical Review Letters 121 (26), 267602, 2018
31 2018 Dynamically screened ladder approximation: Simultaneous treatment of strong electronic correlations and dynamical screening out of equilibrium JP Joost, N Schlünzen, H Ohldag, M Bonitz, F Lackner, I Březinová
Physical Review B 105 (16), 165155, 2022
26 2022 Ion Impact Induced Ultrafast Electron Dynamics in Finite Graphene‐Type Hubbard Clusters M Bonitz, K Balzer, N Schlünzen, MR Rasmussen, JP Joost
physica status solidi (b), 1800490, 2019
24 2019 Femtosecond electron dynamics in graphene nanoribbons–a nonequilibrium Green functions approach within an extended Hubbard model JP Joost, N Schlünzen, M Bonitz
physica status solidi (b) 256 (7), 1800498, 2019
21 2019 Impact of collisions on the dust wake potential with Maxwellian and non-Maxwellian ions S Sundar, H Kählert, JP Joost, P Ludwig, M Bonitz
Physics of Plasmas 24 (10), 2017
18 * 2017 Löwdin's symmetry dilemma within Green functions theory for the one‐dimensional Hubbard model JP Joost, N Schlünzen, S Hese, M Bonitz, C Verdozzi, P Schmitteckert, ...
Contributions to Plasma Physics 62 (2), e202000220, 2022
12 2022 Quantum fluctuations approach to the nonequilibrium E Schroedter, JP Joost, M Bonitz
Condensed Matter Physics 25 (2), 23401, 2022
11 2022 Comment on “On the unphysical solutions of the Kadanoff-Baym equations in linear response: Correlation-induced homogeneous density-distribution and attractors” N Schlünzen, JP Joost, M Bonitz
Physical Review B 96 (11), 117101, 2017
11 2017 Doublon production in correlated materials by multiple ion impacts L Borkowski, N Schlünzen, JP Joost, F Reiser, M Bonitz
physica status solidi (b) 259 (4), 2100511, 2022
10 2022 Quantum fluctuations approach to the nonequilibrium E Schroedter, BJ Wurst, JP Joost, M Bonitz
Physical Review B 108 (20), 205109, 2023
6 2023 Streaming complex plasmas: Ion susceptibility for a partially ionized plasma in parallel electric and magnetic fields H Kählert, JP Joost, P Ludwig, M Bonitz
Contributions to Plasma Physics 56 (3‐4), 204-214, 2016
6 2016 Spectral properties of excited hubbard clusters: a nonequilibrium green functions approach JP Joost
Kiel University (CAU), 2017
5 2017 Accelerating nonequilibrium green function simulations with embedding self-energies K Balzer, N Schlünzen, H Ohldag, JP Joost, M Bonitz
Physical Review B 107 (15), 155141, 2023
4 2023 
Michael BonitzProfessor for Theoretical Physics, Kiel UniversityEmail verificata su physik.uni-kiel.de